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Estrogen: consequences and implications of human mutations in synthesis and action Grumbach MM; Auchus RJJ Clin Endocrinol Metab 1999[Dec]; 84 (12): 4677-94Recent developments have advanced our knowledge of the role of estrogen in the male. Studies of the mutations in CYP19, the gene encoding aromatase, in six females and two males and a mutant estrogen receptor alpha in a man are described. These observations provide illuminating new insights into the critical role of estrogen in the male (as well as female) in the pubertal growth spurt and skeletal maturation, and in the importance of estrogen sufficiency in the accrual and maintenance of bone mass. The weight of evidence supports an effect of androgens on the latter processes, but this effect has not been quantitated. There is a discordance in the estrogen-deficient male between skeletal growth and skeletal maturation and the accrual of bone mass and density. Estrogen synthesis by the testis is limited before puberty, and estrogen deficiency does not affect the age of pubertal onset. Estrogen deficiency in men leads to hypergonadotropism, macroorchidism, and increased testosterone levels. Estrogen lack has a significant effect on carbohydrate and lipid metabolism, and estrogen resistance was associated with evidence of premature coronary atherosclerosis in a man. These observations have highlighted the role of extraglandular estrogen synthesis and intracrine and paracrine actions. In the human, in contrast to nonprimate vertebrates, aromatase deficiency and estrogen resistance (alpha) does not seem to affect gender identity or psychosexual development. The clinical repercussions of mutations in CYP19 on the fetal-placental unit have highlighted the major role of placental aromatase in the protection of the female fetus from androgen excess, thus preventing androgen-induced pseudohermaphrodism and virilization of the mother. These features are compared with the virilization that occurs in utero in the female spotted hyena. The novel features of the aromatase deficiency syndrome in the affected female--in the fetus, during childhood, and at puberty--are discussed, including virilization at puberty and development of polycystic ovaries. The severity of the syndrome correlates with the severity of impairment of aromatase formation in expression systems. Finally, the structural consequences of missense mutations in CYP19 are described in accordance with a model of the structure of human aromatase.|*Mutation[MESH]|Aromatase/genetics[MESH]|Bone Density[MESH]|Bone Development[MESH]|Estrogens/biosynthesis/*genetics/*physiology[MESH]|Female[MESH]|Humans[MESH]|Male[MESH]|Puberty[MESH] |
